SU1056001A1 - Device for determination dispersed material filtration coefficient - Google Patents

Abstract

DEVICE FOR CERTAIN FILTER RATIO DETERMINED. MATERIALS ,. containing a base for which a loading container with a draining disk is installed, communicated with a vessel with water, a stamp with a sealing ring, a weight arm and a rod, characterized in that, in order to measure the measurement accuracy, the device is equipped with two mounted racks with movable two shoulders levers, one shoulder of which serves to transfer a pressing load onto a stamp, and the other through a U-shaped gripper interacts via a limiting stop with a rod, the upper end of which is connected with. using a cable and a block with a weight arm, and the bottom one has a restrictive stop, with the stamp provided with a glass rigidly attached to it, and the lower stop of the rod is installed with the possibility of interaction with the bottom of the glass. R yp 0: O O

Description

 The invention relates to measurement. It is designed to measure the filtration coefficient of dispersed materials, mainly clay soils, and can be used to study the physicochemical properties of materials. A device for determining the filtration coefficient of soils is known, which contains a loading container located in the hollow base and mounted on a drainage disk, a strain with a rod and a lever device ij. The disadvantage of the described device is the complexity of the design and the processing capacity to determine the filtration coefficient using the recording method residual head, and the design of the device itself, does not make it possible to determine the pressure head dient using the adhesive method requiring significantly less Atrat time. The closest in technical essence to the invention is a device for determining the filtration coefficient of dispersed materials, containing a base, which has a loading capacity with a drainage disk, communicated with a vessel with water, a stamp with a sealing ring, a weight beam and a rod. The pressing and tearing force on the stamp installed on the surface of the soil being studied is transmitted by means of coaxial glasses, two circulating springs and a rod to the weight arm with the help of the lever device 2. (5 The disadvantages of this device include the possibility of high measurement error associated with the uneven distribution of the pressing force on the surface of the stamp, as well as the presence of a large number of coupling points in the lever mechanism, which also causes the stamp to be skewed and reduction of measurement accuracy. The purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that a device for determining the filtration coefficient of dispersed materials, containing a base, is installed on KOTopoiii Lena loading container with a gaiter disc, communicated with a vessel with water, a stamp with a sealing ring, a weight arm and a rod, sleep. It is equipped with two base-mounted legs with movable and double shoulders, one shoulder of which serves to transfer a pressing load of 111 tamp, another, through a U-shaped gripper, interacts through a limiting stop with a rod, the upper end of which is connected with a cable and a block with a weight arm, and the lower one has an organic stop, while the stamp is rigidly connected a glass with it, and the bottom stop of the stem is installed with the possibility of interaction with the bottom of the glass. The device is illustrated in a drawing. The device comprises a base 1, on which a loading tank 2 with a draining disk 3 is installed, communicated through channel 4, tube 5 with vessel 6 with water, strain 7 with sealing ring 8, two levers mounted on the base of rack 10 with movable two shoulders and 11 12, one shoulder of which serves to transmit a pressing load stamp 7, and the other through a U-shaped gripper 13 communicates through the sleeve 14 and the limiting stop 15 with the rod 16, the upper end of which is connected by means of the sleeve 17, the cable 18 and the block 19 s weight arm 20, and the bottom It has a limiting stop 21, while the stamp 7 is provided with a cup 22 rigidly connected with it with a guide sleeve 23, the Weight arm 20 has a balanced weight 24 and a working load 2.5 and is installed by means of a bracket 26 and a stand 27 with a base 1. The soil 28 under study placed between the stamp 7 and the drainage dial 3 Disks.o works as follows. Investigated soil 28 of undisturbed addition is placed in the loading capacity of bone 2 on the drainage disk 3. Water is poured into vessel 6 to a predetermined level. At the same time, water under a certain pressure through pipe 5 and channel 4 enters the cavity of the capacitor 2, ensuring wetting of the soil under study 28. A sealing ring 8 is installed on the surface of the soil. and then the stamp 7 is lowered into its saddle. Two shoulders levers 11 and 12 are connected with the U-shaped gripper 13. Thereafter, a preliminary pressing load not exceeding the structural strength of the soil is transferred to the stamp 7. In doing so, the load is created by moving the working load 25 along the weight arm 20 to the right. In this case, the rod 16 by means of the cable 18, the block 19 and the sleeve 17 moves upwards, and the limiting stop 15 acts on the sleeve 14, as a result of which. Stamp 7. Stamp 7 creates a vertical pressing load on the soil under study 28. Then, the load is removed from the stamp 7 by setting the working load 25 to a zero mark, after which the gripper 13 is disconnected from the double-arm levers 11 and 12.,. . . After that, a punch 7 is created from the surface of the soil being investigated 28. In this case, the working load 25 is moved in the weight of the rocker arm 20 to the right by the amount of the tearing force on a scale equal to half the stickiness (test) of the soil 28 under investigation. the rocker arms 6 move downwards, as a result of which the cable 18 through the block 19 with the help of the sleeve. 17 moves the rod 5 upwards to the impact of the limit stop 21 s (} 1Gulling sleeve 23 of the stack 22 At the moment of installation of the specified tearing force on the rod 7 includes a signal system that records the time when the transfer of the tearing load begins until the punch 7 is detached from the soil under study 28.; Based on the known parameters and the found time for the punch 7 to come off the soil under study 28, the filtration coefficient is calculated by the for-, - pressure gradient found as the ratio of the tearing force (A). reduced to a unit area (f). stamp and the length (C) of the filtration path equal to the thickness of the sample -1 i Fl soil porosity, time of separation, sec, volume of liquid required for equilibrium separation, pieces ampa 7 (V is the value of constant n-. for stamping material and determined experimentally. For a polished steel stamp with an area of 10 cm, the volume of liquid is 0.006 cm). The proposed device, in comparison with the known one, succeeded in reducing the scatter of the values of the filtering coefficient for clay t more than four times.

Claims (1)

DEVICE FOR DETERMINING THE FILTRATION FACTOR OF DISPERSED MATERIALS. comprising a base on which a loading container with a draining disk is installed, connected to a vessel with water, a stamp with a sealing ring, a weight rocker and a rod, characterized in that, in order to increase the measurement accuracy, the device is equipped with two stands mounted on the base with movable two shoulders levers, one shoulder of which serves to transfer the pressing load to the stamp, and the other through the U-shaped gripper interacts through the limit stop with the rod, the upper end of which is connected with. using a cable and a block with a weight beam, and the lower one has a restrictive emphasis, at. this stamp is equipped with a rigidly connected "glass with it, and the lower emphasis of the rod is installed with the possibility of interaction with the bottom of the glass. g 10560 ( I